I would profile and try different data structures.

That being said, why not try to use `ArrayList`

; it's fast to iterate and even insert, while in *O(n)*, is fast because moving consecutive data in a cache is lightning fast. *(If you also reverse the list while inserting it will be even faster!)*

**Update**, since my fellow programmers doesn't understands why I recommend `ArrayList`

for this perticular problem:

The problem **isn't** inserting elements. In that case the linked list wins direcly (O(1) against the O(n) for the array list). **The problem is to find the place to insert them**. In this case the `LinkedList`

is really slow. There is a huge overhead to find the place to insert since it doesn't allocate the memory in a "good matter". Lots of cache misses!

OP hasn't posted any code so we only know what OP wants but here is an algorithm analysis for the two cases (where *C** are constants):

`LinkedList`

, for each element to insert:

- Iterating
**O(C1 * n)**
- Inserting
**O(1)**

`ArrayList`

, for each element to insert:

- Iterating
**O(C2 * n)**
- Inserting
**O(C3 * n)**

So, both algorithms are in *O(n)* but looking closely at the constants: *C1* is really big (explained above). *C2* and *C3* on the other hand are small because iterating and moving within the cache is fast.

So, if you have enough memory try an `ArrayList`

!

`LinkedList`

and O(n) with`ArrayList`

or "int pointer"... I don't think you have other choices, unless your problem has some additional information you can use. – Flavio Aug 17 '12 at 10:58